Add to ORKGIn this article, we define a model for fault detection during the beta testing phase of a software design project. Given sampled data, we illustrate how to estimate the failure rate and the number of faults in the software using Bayesian statistical methods with various different prior distributions. Secondly, given a suitable cost function, we also show how to optimise the duration of a further test period for each one of the prior distribution structures considered
We present a sequential software release procedure that certifies with some confidence level that th...
The Gibbs sampling approach is developed for Bayesian inferences and predictions in software reliabi...
We present a sequential software release procedure that certifies with some confidence level that th...
In this article, we define a model for fault detection during the beta testing phase of a software d...
In this article, we define a model for fault detection during the beta testing phase of a software d...
Abstract: We consider a software reliability model where the failure rate of each fault depends on t...
We wish to predict the number of faults N and the time to next failure of a piece of software. Softw...
In this paper, we are concerned with predicting the number of faults N and the time to next failure ...
We wish to predict the number of faults N and the time to next failure of a piece of software. Softw...
We study required numbers of tasks to be tested for a technical system, including systems with built...
This paper proposes a Bayesian approach to the quantification of some of the subjectivity that is in...
Predicting the reliability of software systems based on a component-based approach is inherently dif...
Predicting the reliability of software systems based on a component-based approach is inherently dif...
The Bayesian approach is a stochastic method, allowing to establish trend studies on the b...
Often, the duration of a reliability growth development test is specified in advance and the decisio...
We present a sequential software release procedure that certifies with some confidence level that th...
The Gibbs sampling approach is developed for Bayesian inferences and predictions in software reliabi...
We present a sequential software release procedure that certifies with some confidence level that th...
In this article, we define a model for fault detection during the beta testing phase of a software d...
In this article, we define a model for fault detection during the beta testing phase of a software d...
Abstract: We consider a software reliability model where the failure rate of each fault depends on t...
We wish to predict the number of faults N and the time to next failure of a piece of software. Softw...
In this paper, we are concerned with predicting the number of faults N and the time to next failure ...
We wish to predict the number of faults N and the time to next failure of a piece of software. Softw...
We study required numbers of tasks to be tested for a technical system, including systems with built...
This paper proposes a Bayesian approach to the quantification of some of the subjectivity that is in...
Predicting the reliability of software systems based on a component-based approach is inherently dif...
Predicting the reliability of software systems based on a component-based approach is inherently dif...
The Bayesian approach is a stochastic method, allowing to establish trend studies on the b...
Often, the duration of a reliability growth development test is specified in advance and the decisio...
We present a sequential software release procedure that certifies with some confidence level that th...
The Gibbs sampling approach is developed for Bayesian inferences and predictions in software reliabi...
We present a sequential software release procedure that certifies with some confidence level that th...